CN113179298A - Control method of vehicle, vehicle system, and computer-readable storage medium - Google Patents

Abstract

Disclosed are a control method of a vehicle, a vehicle system, and a computer-readable storage medium. The control method of the vehicle includes: when the authorized party uses the vehicle, performing authorization confirmation of vehicle configuration on the authorized party by the authorization party; when the authorization is confirmed to pass, issuing a vehicle configuration file to a vehicle currently used by an authorized party through a server; and finishing vehicle configuration on the currently used vehicle according to the vehicle configuration file. According to the method and the system, when the authorized party uses the vehicle and the authorization confirmation is passed by the authorized party, the vehicle configuration file is issued to the vehicle through the server, and the vehicle configuration is completed on the vehicle according to the issued vehicle configuration file. Therefore, the vehicle configuration can be completed for the currently used vehicle without manual operation of a user, and the convenience of the user for using the vehicle can be increased; in addition, because the vehicle configuration file can be issued only after the authorization and confirmation of the authorized party are required, the authorized party can be prevented from configuring the vehicle under the condition that the authorized party does not know.

Description

Control method of vehicle, vehicle system, and computer-readable storage medium

Technical Field

The present disclosure relates to the field of vehicle technologies, and in particular, to a control method for a vehicle, a vehicle system, and a non-volatile computer-readable storage medium.

Background

At present, the number of cars for each family is also increasing, where each driver member of a family often operates his or her own vehicle or shares one or more vehicles with others in the family. Every driver all has own driving habits and preference, and when every member in the family that shared vehicle used was driving shared vehicle, all need to carry out the adjustment one by one to a plurality of vehicle function modules based on their own driving habits and preference in they get into the vehicle at every turn, so greatly reduced the convenience that the user used the vehicle.

Disclosure of Invention

The embodiment of the application provides a control method of a vehicle, a vehicle system and a non-volatile computer readable storage medium.

The embodiment of the application provides a control method of a vehicle. The control method of the vehicle includes: performing, by an authorizing party, authorization confirmation of a vehicle configuration for an authorized party when the authorized party uses a vehicle; when the authorization confirmation passes, issuing a vehicle configuration file to the vehicle currently used by the authorized party through a server; completing vehicle configuration on the currently used vehicle according to the vehicle configuration file; wherein the vehicle profile may be used for functional configuration of the vehicle.

In some embodiments, the confirming of the authorization of the vehicle configuration by the authorizing party to the authorized party when the authorized party uses the vehicle includes: when the authorized party uses the vehicle, an authorizing party performs authorization confirmation of vehicle configuration on the authorized party according to a request instruction sent by the authorized party, wherein the request instruction comprises the vehicle configuration file; and/or when the authorized party uses the vehicle, the authorized party performs authorization confirmation of vehicle configuration on the authorized party according to the vehicle configuration file corresponding to the authorized party in the server.

In some embodiments, the control method of the vehicle further includes: creating the vehicle configuration file according to the input of the authorized party, and sending the vehicle configuration file to the server; and/or creating a vehicle configuration file to be checked according to the input of the authorized party, checking the vehicle configuration file to be checked by the authorized party, taking the vehicle configuration file to be checked as the vehicle configuration file when the vehicle configuration file to be checked passes the checking, and sending the vehicle configuration file to the server.

In certain embodiments, each vehicle has unique identification information, and the vehicle profile includes identification information for the vehicle. When the authorization confirmation passes, issuing a vehicle configuration file to the vehicle currently used by the authorized party through a server, wherein the vehicle configuration file comprises: and when the authorization confirmation passes, issuing the vehicle configuration file corresponding to the mark information of the vehicle currently used by the authorized party to the vehicle currently used by the authorized party through a server.

In certain embodiments, the vehicle profile includes configuration information corresponding to a plurality of vehicle function modules including at least one of seat, audio, air conditioning, lighting, window, and light modules. The completing vehicle configuration for the vehicle currently in use according to the vehicle configuration file comprises: and under the network-free environment, configuring the corresponding vehicle function module according to the plurality of configuration information in the vehicle configuration file so as to complete vehicle configuration of the vehicle.

In some embodiments, each of the configuration information includes at least one set of configuration parameters and execution conditions corresponding to the configuration parameters. The control method further comprises the following steps: and controlling the vehicle function module to execute the vehicle function according to the configuration parameters corresponding to the execution conditions under different execution conditions.

In some embodiments, the configuration information includes a first set of configuration parameters and a second set of configuration parameters that are different, wherein the first set of configuration parameters corresponds to a first execution condition, and the second set of configuration parameters corresponds to a second execution condition, and the control method further includes: controlling the vehicle function module to execute a vehicle function according to the first set of configuration parameters under the first execution condition; and/or controlling the vehicle function module to execute the vehicle function according to the second set of configuration parameters under the second execution condition.

In some embodiments, the first execution condition comprises: the current date is a preset date, the vehicle is not entered by a user, and the vehicle is located at a preset position, and the controlling the vehicle function module executes the vehicle function according to the first configuration parameter under the first execution condition, including: if the current date is a preset date, the vehicle is located at a preset position, and a user does not enter the vehicle, the plurality of vehicle function modules execute vehicle functions according to the first set of configuration parameters; and/or the second execution condition comprises: the current date is a preset date, the user enters the vehicle and only authorized users exist in the vehicle, and the vehicle function module is controlled to execute vehicle functions according to the second set of configuration parameters under the second execution condition, including: and if the current date is a preset date, the user enters the vehicle and only the authorized user exists in the vehicle, the plurality of vehicle function modules execute the vehicle function according to the second set of configuration parameters.

The embodiment of the application provides a vehicle system. The vehicle system comprises a confirmation module, a sending module and a configuration module. The confirmation module is used for confirming the authorization of vehicle configuration on an authorized party by the authorized party when the authorized party uses the vehicle; the issuing module is used for issuing a vehicle configuration file to the vehicle currently used by the authorized party through a server when the authorization confirmation passes; the configuration module is used for completing vehicle configuration on the vehicle which is currently used according to the vehicle configuration file; wherein the vehicle profile may be used for functional configuration of the vehicle.

The embodiment of the application provides a vehicle system. The vehicle system comprises a vehicle and a mobile terminal in communication connection with the vehicle; and one or more processors. The processors are arranged in the vehicle and/or the mobile terminal, and one or more of the processors are used for realizing the control method in any one of the above embodiments.

The present embodiments provide a non-transitory computer-readable storage medium having a computer program stored thereon. Which when executed by a processor implements the control method described in any of the embodiments above.

According to the vehicle control method, the vehicle system and the nonvolatile computer readable storage medium, when the authorized party uses the vehicle, the authorized party performs vehicle configuration authorization confirmation on the authorized party, only when the authorization confirmation passes, the vehicle configuration file is issued to the vehicle currently used by the authorized party through the server, and vehicle configuration is completed on the vehicle currently used according to the issued vehicle configuration file. On one hand, the vehicle configuration can be completed for the currently used vehicle according to the vehicle configuration file without manual operation of a user, so that the convenience of the user for using the vehicle can be increased, and the comfort of the user for using the vehicle can be improved; on the other hand, the vehicle configuration file can be issued only after the authorized party is confirmed by the authorization party to perform vehicle configuration authorization, so that the authorization party can uniformly manage the vehicle configuration files corresponding to all the authorized parties, and the authorized party can be prevented from configuring the vehicle under the condition that the authorization party does not know.

Additional aspects and advantages of embodiments of the present application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the present application.

Drawings

The above and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic flow chart diagram of a method of controlling a vehicle according to certain embodiments of the present application;

FIG. 2 is a schematic block diagram of a vehicle system according to certain embodiments of the present application;

FIG. 3 is a schematic block diagram of another vehicle system in accordance with certain embodiments of the present application;

fig. 4 to 13 are schematic flowcharts of a control method of a vehicle according to some embodiments of the present application;

FIG. 14 is a schematic diagram of the interaction of a non-volatile computer readable storage medium and a processor of certain embodiments of the present application.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary only for the purpose of explaining the embodiments of the present application, and are not to be construed as limiting the embodiments of the present application.

Referring to fig. 1, the present application provides a control method for a vehicle. The control method comprises the following steps:

01: when the authorized party uses the vehicle, performing authorization confirmation of vehicle configuration on the authorized party by the authorization party;

02: when the authorization is confirmed to pass, issuing a vehicle configuration file to a vehicle currently used by an authorized party through a server; and

03: completing vehicle configuration on the currently used vehicle according to the vehicle configuration file; the vehicle profile can be used, among other things, for the functional configuration of the vehicle.

Referring to fig. 1 and 2, a vehicle system 100 is also provided. The vehicle system 100 includes a confirmation module 10, a distribution module 20, and a configuration module 30. Step 01 may be performed by the confirmation module 10, step 02 may be performed by the issue module 20, and step 03 may be performed by the configuration module 30. Also, namely, the confirmation module 10 is used for confirmation of authorization of the vehicle configuration by the authorizing party to the authorized party when the authorized party uses the vehicle; the issuing module 20 is used for issuing a vehicle configuration file to a vehicle currently used by an authorized party through a server when the authorization confirmation passes; the confirmation module 30 is used for completing vehicle configuration for the vehicle currently in use according to the vehicle configuration file; the vehicle profile can be used, among other things, for the functional configuration of the vehicle.

Referring to fig. 1 and 3, a vehicle system 200 is also provided. The vehicle system 200 includes a vehicle 210, a mobile terminal 220 communicatively coupled to the vehicle 210, and one or more processors 230. The processor 230 is disposed within the vehicle 210 and/or the mobile terminal 220. Steps 01, 02 and 03 can be implemented by one or more processors 230. That is, the one or more processors 230 are configured to perform an authorization confirmation of the vehicle configuration by the authorizing party to the authorized party when the authorized party uses the vehicle; when the authorization is confirmed to pass, issuing a vehicle configuration file to a vehicle currently used by an authorized party through a server; completing vehicle configuration on the currently used vehicle according to the vehicle configuration file; the vehicle profile can be used, among other things, for the functional configuration of the vehicle.

According to the vehicle control method, the vehicle system 100 and the vehicle system 200, when the authorized party uses the vehicle, the authorized party performs vehicle configuration authorization confirmation on the authorized party, only when the authorization confirmation passes, the vehicle configuration file is issued to the vehicle currently used by the authorized party through the server, and vehicle configuration is completed on the vehicle currently used according to the issued vehicle configuration file. On one hand, the vehicle configuration can be completed for the currently used vehicle according to the vehicle configuration file without manual operation of a user, so that the convenience of the user for using the vehicle can be increased, and the comfort of the user for using the vehicle can be improved; on the other hand, the vehicle configuration file can be issued only after the authorized party is confirmed by the authorization party to perform vehicle configuration authorization, so that the authorization party can uniformly manage the vehicle configuration files corresponding to all the authorized parties, and the authorized party can be prevented from configuring the vehicle under the condition that the authorization party does not know.

It should be noted that, in some embodiments, the authorizer can also set the vehicle profile corresponding to itself according to its own habits and preferences, and when the authorizer uses the vehicle, the vehicle configuration is directly completed for the currently used vehicle according to the vehicle profile corresponding to the authorizer. The authorized party may be an owner of the vehicle or a user of the vehicle with a higher authority, which is not limited herein. The authorized party is a user who can use the vehicle by authorization confirmation of the authorized party, and the authorized party are the same and are not described in detail below.

Specifically, referring to fig. 1 and 4, in some embodiments, step 01: an authorized confirmation of vehicle configuration by an authorizing party to an authorized party when the authorized party uses a vehicle, comprising:

011: when the authorized party uses the vehicle, the authorized party performs authorization confirmation of vehicle configuration on the authorized party according to a request instruction sent by the authorized party, wherein the request instruction comprises a vehicle configuration file.

Referring to fig. 2 and 4, in some embodiments, step 011 can be implemented by the confirmation module 10. That is, the confirmation module 10 is further configured to, when the authorized party uses the vehicle, perform authorization confirmation of the vehicle configuration on the authorized party according to a request instruction sent by the authorized party, where the request instruction includes the vehicle configuration file.

Referring to fig. 3 and 4, in some embodiments, step 011 can also be implemented by one or more of the processors 230. That is, the one or more processors 230 are further configured to, when the authorized party uses the vehicle, perform authorization confirmation of the vehicle configuration on the authorized party according to a request instruction sent by the authorized party, where the request instruction includes the vehicle configuration file.

Specifically, in some embodiments, when the authorized party uses the vehicle, the authorized party sends a request instruction, where the request instruction includes a vehicle configuration file corresponding to the authorized party, and after receiving the request instruction, the authorized party performs authorization confirmation of vehicle configuration on the authorized party according to the request instruction sent by the authorized party. Since the request instruction including the vehicle profile is transmitted to the authorized party only when the authorized party uses the vehicle, the vehicle system 100 (or the vehicle system 200) can be prevented from storing a large number of vehicle profiles, thereby increasing the operating speed of the vehicle system 100 (or the vehicle system 200).

In some embodiments, the vehicle profile in the request instruction is set corresponding to the authorized party, i.e., the vehicle profiles corresponding to different authorized parties may be different. Therefore, when any authorized party uses the vehicle, the configuration in the vehicle can meet the requirements of the currently used authorized party, and the comfort level and the experience feeling of the user in using the vehicle are improved.

Referring to fig. 1 and 5, in some embodiments, step 01: when an authorized party uses a vehicle, an authorized party performs authorization confirmation of vehicle configuration on the authorized party by an authorizing party, further comprising:

012: when the authorized party uses the vehicle, the authorizing party performs authorization confirmation of vehicle configuration on the authorized party according to the vehicle configuration file corresponding to the authorized party in the server.

Referring to fig. 2 and 5, in some embodiments, step 012 can be implemented by the confirmation module 10. That is, the confirmation module 10 is also used for confirming the authorization of the vehicle configuration for the authorized party according to the vehicle configuration file corresponding to the authorized party in the server by the authorizing party when the authorized party uses the vehicle.

Referring to fig. 3 and 5, in some embodiments, step 012 can also be implemented by one or more processors 230. That is, the one or more processors 230 are further configured to, when the authorized party uses the vehicle, the authorizing party perform authorization confirmation of the vehicle configuration for the authorized party according to the vehicle configuration file corresponding to the authorized party in the server.

For example, in some embodiments, the server has a vehicle profile pre-stored therein corresponding to the authorized party, and when the authorized party uses the vehicle, the authorized party performs an authorization confirmation of the vehicle configuration for the authorized party according to the vehicle profile in the server corresponding to the authorized party currently using the vehicle. On one hand, the vehicle configuration file corresponding to the authorized party is pre-stored in the server, so that the server can directly issue the vehicle configuration file to the vehicle after the authorization is passed, and the vehicle configuration file is not required to be uploaded once every time the authorized party uses the vehicle, thereby saving the time for vehicle configuration and improving the efficiency of vehicle configuration; on the other hand, the vehicle configuration file corresponds to the authorized party, so that the configuration in the vehicle can meet the requirements of the currently used authorized party no matter which authorized party uses the vehicle, and the comfort level and the experience feeling of the user in using the vehicle are improved.

It should be noted that, in some embodiments, after the authorized party inputs the unlocking instruction to unlock the vehicle, the authorized party is considered to use the vehicle at this time. For example, in an example, the unlocking instruction may be input through a vehicle key, for example, through a bluetooth key, a fingerprint key, a mobile phone near field communication key, and the like, at this time, according to an authorized party bound to the vehicle key to which the unlocking instruction is input, a vehicle profile corresponding to an authorized party currently using the vehicle may be acquired in the server; in another example, the unlocking instruction may also be input through an application program in the mobile terminal 220 of the authorized party, and at this time, the authorized party currently bound to the application program is identified, that is, the vehicle profile corresponding to the authorized party currently using the vehicle may be obtained in the server.

Referring to fig. 6, in some embodiments, the control method further includes:

041: creating a vehicle configuration file according to the input of the authorized party, and sending the vehicle configuration file to a server;

referring to fig. 2 and 6, in some embodiments, the vehicle system 100 further includes a sending module 40, and step 041 may be performed by the sending module 40. That is, the sending module 40 is configured to create a vehicle profile according to an input of an authorized party and send the vehicle profile to the server.

Referring to fig. 3 and 6, in some embodiments, step 041 may also be executed by one or more processors 230. That is, the one or more processors 230 are also operable to create a vehicle profile based on the input from the authorized party and to send the vehicle profile to the server.

Specifically, in some embodiments, the authorizer sets or updates the data in the vehicle profile in the application program directly for each authorized party, and the processor 230 (or the sending module 40) creates the vehicle profile according to the input of the authorizer, sends the created vehicle profile to the server, and obtains the vehicle profile corresponding to the created vehicle profile from the server when the authorized party uses the vehicle. Because the vehicle configuration files of all authorized parties are created according to the input of the authorized party, the authorized party can uniformly manage the vehicle configuration files corresponding to all authorized parties, and the authorized party can be prevented from configuring the vehicle under the condition that the authorized party does not know.

In some embodiments, the vehicle profile includes configuration information corresponding to a plurality of vehicle function modules, wherein the vehicle function modules include, but are not limited to, at least one of seat, audio, air conditioning, lighting, window, and light modules. Illustratively, the vehicle function module includes a seat, audio, an air conditioner, lighting and a window, and the vehicle profile can be obtained according to the seat height, audio volume, air conditioner temperature, lighting brightness and window opening degree, etc. input by an authorized party. In some embodiments, before the vehicle leaves the factory, the vehicle function modules all have default parameters, that is, default seat parameters, default audio parameters, default air-conditioning parameters, default lighting parameters, and default window parameters, and the authorizer may adjust the default parameters (including the default seat parameters, the default audio parameters, the default air-conditioning parameters, the default lighting parameters, and the default window parameters) according to habits and preferences of the authorizer, so that the vehicle configuration can better meet the expectations of the authorizer, and at the same time, the operation difficulty of the authorizer is reduced.

Referring to fig. 7, in some embodiments, the control method further includes:

042: and creating a vehicle configuration file to be checked according to the input of the authorized party, checking the vehicle configuration file to be checked by the authorized party, taking the vehicle configuration file to be checked as the vehicle configuration file when the vehicle configuration file to be checked passes the checking, and sending the vehicle configuration file to the server.

Referring to fig. 2 and 7, in some embodiments, step 042 may be implemented by sending module 40. That is, the sending module 40 is further configured to create a vehicle configuration file to be checked according to an input of the authorized party, the authorized party checks the vehicle configuration file to be checked, and when the vehicle configuration file to be checked passes the check, the vehicle configuration file to be checked is used as the vehicle configuration file and is sent to the server.

Referring to fig. 3 and 7, in some embodiments, step 042 may be performed by one or more processors 230. That is, the one or more processors 230 are further configured to create a vehicle configuration file to be checked according to an input of an authorized party, the authorized party checks the vehicle configuration file to be checked, and when the vehicle configuration file to be checked passes the check, the vehicle configuration file to be checked is used as the vehicle configuration file and is sent to the server.

Specifically, in some embodiments, the authorized party may set or update the vehicle profile in the application according to the driving habits and preferences of the authorized party, and the processor 230 (or the sending module 40) creates the vehicle profile to be checked according to the input of the authorized party, and the authorized party checks the vehicle profile to be checked. And if the vehicle configuration file to be checked passes the checking, sending the vehicle configuration file to be checked to a server as the vehicle configuration file corresponding to the authorized party, and acquiring the vehicle configuration file corresponding to the authorized party in the server when the authorized party uses the vehicle. On one hand, the vehicle configuration file to be checked is created according to the input of the authorized party, so that the vehicle configuration is finished according to the vehicle configuration file, and the vehicle configuration file can better meet the expectation of the authorized party currently using the vehicle, and the comfort and experience of a user using the vehicle are improved; on the other hand, the vehicle configuration file to be checked can be sent to the server as the vehicle configuration file only after the vehicle configuration file to be checked passes the checking of the authorizing party, so that the authorizing party can uniformly manage the vehicle configuration files corresponding to all authorized parties, and the authorized party can be prevented from configuring the vehicle under the condition that the authorizing party does not know.

For example, assuming that the vehicle function module includes a seat, audio, air conditioner, lighting and a window, in some embodiments, the vehicle profile to be checked may be obtained according to the seat height, audio volume, air conditioner temperature, lighting brightness, window opening degree, and the like, which are input by an authorized party. In some embodiments, before the vehicle leaves the factory, the vehicle function modules all have default parameters, that is, default seat parameters, default audio parameters, default air-conditioning parameters, default lighting parameters, and default window parameters, and an authorized party can adjust the default parameters (including the default seat parameters, the default audio parameters, the default air-conditioning parameters, the default lighting parameters, and the default window parameters) according to own habits and preferences to obtain a vehicle configuration file to be checked. Therefore, after the vehicle configuration file to be checked is checked by the authorizing party and is issued to the vehicle as the vehicle configuration file, the vehicle configuration can better meet the expectation of the authorized party, and the operation difficulty of the authorized party is reduced. In some embodiments, the vehicle profile corresponding to the authorized party currently driving the vehicle can be adjusted after repeating the same operation of the vehicle setting item for a predetermined number of times when the authorized party drives the vehicle. For example, the volume of the audio in the vehicle profile is 25, the authorized party adjusts the audio volume to 28 manually for multiple times in the process of driving the vehicle, which indicates that the audio volume 28 is more desirable for the authorized party, the audio volume setting in the vehicle profile corresponding to the authorized party currently driving the vehicle is automatically adjusted to 28, the authorized party checks the updated vehicle profile, and if the checking is successful, the authorized party reuses the vehicle and authorizes the vehicle to pass, the vehicle is configured through a new vehicle profile below the server, that is, the audio volume in the new vehicle profile is 28, so that the vehicle configuration is more desirable for the user and is more intelligent.

Of course, in some embodiments, an authorized party may be able to create vehicle profiles corresponding to other authorized parties in addition to creating vehicle profiles corresponding to itself. For example, assuming that the authorized party a creates a vehicle profile to be checked corresponding to the authorized party b without the knowledge of the authorized party b in order to set surprise for the authorized party b, after the vehicle profile to be checked is checked by the authorized party, the vehicle profile to be checked is sent to the server as the vehicle profile corresponding to the authorized party b. When the authorized party b uses the vehicle and the authorization passes, the vehicle configuration file created by the authorized party a is issued to the vehicle currently used by the authorized party b through the server so as to realize the configuration of the vehicle according to the expectation of the authorized party a. Therefore, the use scenes of the vehicle control method are increased, and interestingness is increased for a user to use the vehicle.

Referring to fig. 1 and 8, in some embodiments, each vehicle has unique identification information, and the vehicle profile includes identification information of the vehicle. Step 02: upon passing the authorization confirmation, obtaining, by the server, an under-vehicle profile for a vehicle currently in use by the authorized party, comprising:

021: and when the authorization confirmation passes, issuing a vehicle configuration file corresponding to the mark information of the vehicle currently used by the authorized party to the vehicle currently used by the authorized party through the server.

Referring to fig. 2 and 8, in some embodiments, step 021 may be implemented by the down-sending module 20. That is, the issuing module 20 is further configured to issue, to the vehicle currently used by the authorized party, the vehicle configuration file corresponding to the identification information of the vehicle currently used by the authorized party through the server when the authorization confirmation passes.

Referring to fig. 2 and 8, in some embodiments, step 021 can also be implemented by one or more processors 230. That is, the one or more processors 230 are further configured to issue, by the server, a vehicle profile corresponding to the identification information of the vehicle currently used by the authorized party to the vehicle currently used by the authorized party when the authorization confirmation passes.

The same user may be an authorized party of multiple vehicles at the same time, and the user may have different vehicle configuration parameters for different vehicles, that is, there may be multiple acquired vehicle configuration files corresponding to the same authorized party. In some embodiments, different vehicles have different identification information, and when the authorization confirmation passes, the vehicle configuration file corresponding to the identification information of the currently used vehicle is issued to the vehicle currently used by the authorized party through the server. So avoid using the vehicle at present to set up according to the vehicle configuration file of other vehicles, comfort level and experience when being favorable to promoting the user to use the vehicle are felt. Of course, in some embodiments, the same user may have the same vehicle configuration parameters for all vehicles, and thus, the plurality of vehicle profiles corresponding to different vehicle identification information may all be the same, without limitation.

Referring to fig. 1 and 9, step 03: completing vehicle configuration for a currently used vehicle according to a vehicle configuration file, comprising:

031: and under the network-free environment, configuring the corresponding vehicle function modules according to the plurality of configuration information in the vehicle configuration file so as to complete vehicle configuration of the vehicle.

Referring to fig. 2 and 9, in some embodiments, step 031 can be implemented by configuration module 30. That is, the configuration module 30 is further configured to configure the corresponding vehicle function module according to the plurality of configuration information in the vehicle configuration file in the non-network environment, so as to complete the vehicle configuration of the vehicle.

Referring to fig. 2 and 9, in some embodiments, step 031 can also be implemented by one or more processors 230. That is, the one or more processors 230 are further configured to configure the corresponding vehicle function module according to the plurality of configuration information in the vehicle configuration file in the non-network environment, so as to complete vehicle configuration for the vehicle.

Specifically, when the vehicle passes the authorization, after the vehicle receives the vehicle configuration file passing through the lower part of the server, the processor 230 (or the configuration module 30) configures the corresponding vehicle function module according to a plurality of configuration information in the received vehicle configuration file in the non-network environment, so as to complete the vehicle configuration of the vehicle. For example, assuming that the vehicle profile includes configuration information of seats, configuration information of audio, and configuration information of air conditioners, after receiving the vehicle profile issued by the server, the processor 230 (or the configuration module 30) configures the seats in the vehicle according to the configuration information of the seats in the vehicle profile, configures the audio modules in the vehicle according to the configuration information of the audio in the vehicle profile, and configures the air conditioner modules in the vehicle according to the configuration information of the air conditioners in the vehicle profile. So when the authorization passes through, can dispose a plurality of vehicle function module in the car simultaneously under no network environment, can once only accomplish the configuration to all vehicles of vehicle promptly, can increase the convenient degree that the user used the vehicle and promote the comfort level that the user used the vehicle.

The vehicle configuration of the vehicle is completed only by sending the configuration information to the corresponding vehicle function module for configuration, and the vehicle function modules do not necessarily need to immediately execute the vehicle function. Specifically, referring to fig. 10, in some embodiments, each configuration message includes at least one set of configuration parameters and execution conditions corresponding to the configuration parameters. The control method may further include:

05: and controlling the vehicle function module to execute the vehicle function according to the configuration parameters corresponding to the execution conditions under different execution conditions.

Referring to fig. 2 and 10, in some embodiments, the vehicle system 100 further includes the control module 50, and step 05 can be implemented by the control module 50. That is, the control module 50 is configured to control the vehicle function module to execute the vehicle function under different execution conditions according to the configuration parameters corresponding to the execution conditions.

Referring to fig. 2 and 10, in some embodiments, step 05 can also be implemented by one or more processors 230. That is, the one or more processors 230 are further configured to control the vehicle function module to execute the vehicle function under different execution conditions according to the configuration parameters corresponding to the execution conditions.

Each configuration information comprises at least one set of configuration parameters and execution conditions corresponding to the configuration parameters, and after the vehicle configuration of the vehicle is completed, namely a plurality of vehicle function modules are configured according to a plurality of configuration information, each vehicle function module executes the vehicle function according to the configuration parameters corresponding to the execution conditions under different execution conditions. Because the plurality of vehicle function modules execute the vehicle function according to the configuration parameters corresponding to the execution conditions under different execution conditions, the vehicle function can better meet the user expectation, and the user experience and the intellectualization of the vehicle are improved.

It should be noted that the execution conditions include, but are not limited to: at least one of the user does not enter the vehicle, the user enters the vehicle, the current date is a preset date, the vehicle is located at a preset position, an unauthorized user is present in the vehicle, an unauthorized user is not present in the vehicle, the vehicle remains stationary, and the vehicle speed of the vehicle is less than a preset vehicle speed. Illustratively, in some embodiments, the execution conditions include, but are not limited to: the vehicle control method includes any one of the following steps that a user does not enter the vehicle, the user enters the vehicle, the current date is a preset date, the vehicle is located at a preset position, an unauthorized user exists in the vehicle, the unauthorized user does not exist in the vehicle, the vehicle is kept still, and the vehicle speed of the vehicle is less than a preset vehicle speed. For example, in one example, when the execution condition includes that the current date is a preset date, only when the current date is the preset date, the vehicle function module executes the vehicle function according to the configuration parameter corresponding to the execution condition, so that the vehicle can execute the vehicle function according to the corresponding configuration parameter on the preset date, for example, on a specific day (for example, a birthday, a holiday or a anniversary), so as to set a surprise for a user, thereby improving a usage scenario of the vehicle configuration and enhancing an experience of the user in using the vehicle; in another example, when the execution condition includes that the vehicle is located at a preset position (for example, a position of a cell where the authorized party resides), the vehicle can execute the vehicle function at the preset position of the vehicle, for example, a specific location according to the corresponding configuration parameter, so as to avoid inconvenience to the authorized party caused by the vehicle function module executing the vehicle function when the vehicle is located at another location, thereby improving the intelligence of the vehicle and the experience of the user using the vehicle, wherein whether the current vehicle is located at the preset position can be determined by GPS positioning; in another example, when the execution condition includes that the vehicle is an authorized user, the vehicle can execute the vehicle function according to the corresponding configuration parameter when the vehicle is an authorized user, so as to avoid inconvenience to an unauthorized party and an authorized party in the vehicle due to the fact that the vehicle function module executes the vehicle function when the unauthorized user exists in the vehicle, thereby improving the intelligence of the vehicle and the experience of the user in using the vehicle. Of course, in some embodiments, the execution conditions include, but are not limited to: the vehicle is a vehicle in which the user does not enter the vehicle, the user enters the vehicle, the current date is a preset date, the vehicle is located at a preset position, the unauthorized user is present in the vehicle, the unauthorized user is not present in the vehicle, the vehicle is kept still, and the vehicle speed of the vehicle is lower than a preset vehicle speed; or, the execution condition may also be that the current date is a preset date, the vehicle is located at a preset position, and no unauthorized user exists in the vehicle; alternatively, the execution condition may be that the current date is a preset date, the vehicle is located at a preset position, the user enters the vehicle, and there is no unauthorized user in the vehicle, etc., which are not limited herein.

For example, referring to fig. 11, in some embodiments, the configuration information includes a first set of configuration parameters and a second set of configuration parameters that are different, where the first set of configuration parameters corresponds to a first execution condition, and the second set of configuration parameters corresponds to a second execution condition, and the control method further includes:

051: controlling a vehicle function module to execute a vehicle function according to a first set of configuration parameters under a first execution condition; and/or

052: and controlling the vehicle function module to execute the vehicle function according to the second set of configuration parameters under the second execution condition.

Referring to fig. 2 and 11, in some embodiments, step 051 and step 052 can be implemented by the executing module 50. That is, the execution module 50 is further configured to control the vehicle function module to execute the vehicle function according to the first set of configuration parameters under the first execution condition; and/or controlling the vehicle function module to perform the vehicle function according to the second set of configuration parameters under the second execution condition.

Referring to fig. 3 and 11, in some embodiments, steps 051 and steps 052 may be implemented by one or more processors 230. That is, the one or more processors 230 are further configured to control the vehicle function module to perform the vehicle function according to the first set of configuration parameters under the first execution condition; and/or controlling the vehicle function module to perform the vehicle function according to the second set of configuration parameters under the second execution condition.

Each configuration information includes a first set of configuration parameters and a second set of configuration parameters, wherein the first set of configuration parameters corresponds to a first execution condition and the second set of configuration parameters corresponds to a second execution condition. After the vehicle configuration of the vehicle is finished, namely a plurality of vehicle function modules are configured according to a plurality of configuration information, the vehicle function module executes the vehicle function according to a first configuration parameter corresponding to a first execution condition under the first execution condition; and executing the vehicle function according to the second configuration parameter corresponding to the second execution condition under the second execution condition by the vehicle function module. For example, in one example, the configuration information corresponding to the in-vehicle air conditioning module includes a first set of configuration parameters, a second set of configuration parameters, a first execution condition corresponding to the first set of configuration parameters, and a second execution condition corresponding to the second set of configuration parameters. Assuming that the first set of configuration parameters is that the temperature is adjusted to 16 ℃ and the wind speed is 3 grades; the second set of configuration parameters is that the temperature is adjusted to 26 ℃ and the wind speed is 1 gear; the first execution condition is that a user unlocks the vehicle but does not enter the vehicle; the second execution condition is that the user enters the vehicle. After the vehicle configuration is completed, when a user unlocks the vehicle and does not detect that the user only enters the vehicle, namely when a first execution condition is met, the in-vehicle air conditioner executes a first set of configuration parameters, namely the in-vehicle air conditioner adjusts the temperature to 16 ℃ and the wind speed to 3 grades; when the fact that the user enters the vehicle is detected, namely the second execution condition is met, the in-vehicle air conditioner executes the second set of configuration parameters, namely the in-vehicle air conditioner adjusts the temperature to 26 ℃ and the wind speed to 1 gear. Wherein, whether the user enters the vehicle can be judged according to the opening and closing of the vehicle door. For example, when the vehicle door is detected to be opened and then closed again, the user can be understood as entering the vehicle after opening the vehicle door, namely, when the vehicle door is detected to be opened and then closed again, the user is considered to enter the vehicle. Of course, whether the user enters the vehicle or not can be judged by detecting whether the weight in the vehicle is increased or not, and whether the user enters the vehicle or not can be judged in other modes, which is not exemplified herein.

Referring to fig. 11 and 12, in some embodiments, the first execution condition includes that the current date is a predetermined date, the user does not enter the vehicle, and the vehicle is located at a predetermined position, and the second execution condition includes that the current date is a predetermined date, the user enters the vehicle, and only authorized users are in the vehicle.

Step 051: controlling a vehicle function module to perform a vehicle function according to a first set of configuration parameters under a first execution condition, comprising:

0511: and if the current date is a preset date, the vehicle is positioned at a preset position and the user does not enter the vehicle, controlling the plurality of vehicle function modules to execute the vehicle function according to the first set of configuration parameters.

Step 052: controlling a vehicle function module to execute a vehicle function according to a second set of configuration parameters under a second execution condition, comprising:

0521: and if the current date is a preset date, the user enters the vehicle and only authorized users exist in the vehicle, controlling the plurality of vehicle function modules to execute the vehicle functions according to the second set of configuration parameters.

Referring to fig. 2 and 12, in some embodiments, step 0511 and step 0521 can be implemented by the executing module 50. That is, the executing module 50 is further configured to control the plurality of vehicle function modules to execute the vehicle function according to the first set of configuration parameters if the current date is the preset date, the vehicle is located at the preset position, and the user does not enter the vehicle; and/or if the current date is a preset date, the user enters the vehicle and only an authorized user exists in the vehicle, controlling the plurality of vehicle function modules to execute the vehicle function according to the second set of configuration parameters.

Referring to fig. 3 and 12, in some embodiments, steps 0511 and steps 0521 can be implemented by one or more processors 230. That is, the one or more processors 230 are further configured to control the plurality of vehicle function modules to execute the vehicle function according to the first set of configuration parameters if the current date is the preset date, the vehicle is located at the preset location, and the user does not enter the vehicle; and/or if the current date is a preset date, the user enters the vehicle and only an authorized user exists in the vehicle, controlling the plurality of vehicle function modules to execute the vehicle function according to the second set of configuration parameters.

For example, after the vehicle configuration of the vehicle is completed, that is, after the plurality of vehicle function modules are configured according to the plurality of configuration information, each vehicle function module corresponds to one configuration information. Each configuration information includes a first set of configuration parameters corresponding to the first execution condition and a second set of configuration parameters corresponding to the second execution condition. The first condition comprises that the current date is a preset date, the user does not enter the vehicle and the vehicle is located at a preset position, and the second execution condition comprises that: the current date is a preset date, the user enters the vehicle and only authorized users exist in the vehicle. Supposing that the configuration information corresponding to the in-vehicle audio module comprises a first set of configuration parameters and a second set of configuration parameters, wherein the first set of configuration parameters is that a speaker outside the vehicle is started to play a preset first section of audio, the second set of configuration parameters is that the speaker outside the vehicle is closed, and an in-vehicle music player is started to play a second section of audio; the configuration information corresponding to the light language module comprises a first set of configuration parameters and a second set of configuration parameters, wherein the first set of configuration parameters is used for starting the external lamp and enabling the external lamp to operate in a first mode so as to light up a preset light language, and the second set of configuration parameters is used for closing the external lamp; the configuration information corresponding to the interior lighting module comprises a first set of configuration parameters and a second set of configuration parameters, wherein the first set of configuration parameters is used for turning off interior lighting of the vehicle, and the second set of configuration parameters is used for turning on an interior atmosphere lamp of the vehicle. If the current date is a preset date, the vehicle is located at a preset position, and the user does not enter the vehicle, the plurality of vehicle function modules execute the vehicle function according to the first set of configuration parameters, namely the in-vehicle audio module starts a loudspeaker outside the vehicle to play a preset first section of audio; the lamp language module starts an external lamp and enables the external lamp to operate in a first mode so as to light up a preset lamp language; and the interior lighting module closes the interior lighting. If the current date is a preset date, the user enters the vehicle and only authorized users exist in the vehicle, the plurality of vehicle function modules execute the vehicle function according to the second set of configuration parameters, namely the in-vehicle audio module closes the loudspeaker outside the vehicle and starts the in-vehicle music player to play a second section of audio; the lamp language module closes the external lamp; and the interior lighting module turns on the interior atmosphere lamp. Because the execution conditions of the plurality of vehicle function modules are formed by combining a plurality of conditions under different execution conditions, the vehicle functions are executed according to the configuration parameters corresponding to the execution conditions, so that the vehicle functions can better meet the user expectations, and the user experience and the vehicle intelligence are improved.

Referring to fig. 13, in some embodiments, the configuration information includes a first set of configuration parameters and a second set of configuration parameters that are different, where the first set of configuration parameters corresponds to a first execution condition, and the control method further includes:

053: controlling a vehicle function module to execute a vehicle function according to a first set of configuration parameters under a first execution condition; and/or

054: and controlling the vehicle function module to execute the vehicle function according to the second set of configuration parameters without the first execution condition.

Referring to fig. 2 and 13, in some embodiments, step 053 and step 054 can be implemented by the execution module 50. That is, the execution module 50 is further configured to control the vehicle function module to execute the vehicle function according to the first set of configuration parameters under the first execution condition; and/or controlling the vehicle function module to perform the vehicle function according to the second set of configuration parameters without the first execution condition.

Referring to fig. 3 and 13, in some embodiments, step 053 and step 054 may be implemented by one or more processors 230. That is, the one or more processors 230 are further configured to execute the vehicle function according to the first set of configuration parameters if the vehicle function module is controlled under the first execution condition; and/or controlling the vehicle function module to perform the vehicle function according to the second set of configuration parameters without the first execution condition.

Each configuration information includes a first set of configuration parameters and a second set of configuration parameters that are different, wherein the first set of configuration parameters corresponds to a first execution condition. After the vehicle configuration of the vehicle is finished, namely a plurality of vehicle function modules are configured according to a plurality of configuration information, the vehicle function module executes the vehicle function according to a first configuration parameter corresponding to a first execution condition under the first execution condition; and executing the vehicle function according to the second configuration parameter corresponding to the second execution condition when the vehicle function module is not in the first execution condition. Because the embodiment of the application comprises two sets of configuration parameters and one execution condition, if the execution condition is met, the first configuration parameter is installed for execution, and if the execution condition is not met, the second configuration parameter is installed for execution.

Referring to fig. 14, the present embodiment further provides a computer-readable storage medium 300, on which a computer program 310 is stored, and when the computer program is executed by a processor 320, the steps of the method for controlling a vehicle according to any one of the above embodiments are implemented.

For example, please refer to fig. 1 and 14, which are executed by the processor 320, to implement the following steps of the control method for the vehicle:

01: when the authorized party uses the vehicle, performing authorization confirmation of vehicle configuration on the authorized party by the authorization party;

02: when the authorization is confirmed to pass, issuing a vehicle configuration file to a vehicle currently used by an authorized party through a server; and

03: completing vehicle configuration on the currently used vehicle according to the vehicle configuration file; the vehicle profile can be used, among other things, for the functional configuration of the vehicle.

It will be appreciated that the computer program 310 comprises computer program code. The computer program code may be in the form of source code, object code, an executable file or some intermediate form, etc. The computer-readable storage medium may include: any entity or device capable of carrying computer program code, recording medium, U-disk, removable hard disk, magnetic disk, optical disk, computer Memory, Read-Only Memory (ROM), Random Access Memory (RAM), software distribution medium, and the like.

In some embodiments, the processor 320 and the processor 230 in the vehicle system 200 may be the same processor or different processors, and are not limited herein.

In the description herein, reference to the description of the terms "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example" or "some examples" or the like means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Any process or method descriptions in flow charts or otherwise described herein may be understood as representing modules, segments, or portions of code which include one or more executable instructions for implementing specific logical functions or steps of the process, and the scope of the preferred embodiments of the present application includes other implementations in which functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order, depending on the functionality involved, as would be understood by those reasonably skilled in the art of the present application.

Although embodiments of the present application have been shown and described above, it is to be understood that the above embodiments are exemplary and not to be construed as limiting the present application, and that changes, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present application.

Claims (11)

1. A control method of a vehicle, characterized by comprising:

performing, by an authorizing party, authorization confirmation of a vehicle configuration for an authorized party when the authorized party uses a vehicle;

when the authorization confirmation passes, issuing a vehicle configuration file to the vehicle currently used by the authorized party through a server; and

completing vehicle configuration on the currently used vehicle according to the vehicle configuration file; wherein the vehicle profile may be used for functional configuration of the vehicle.

2. The control method according to claim 1, wherein the confirmation of authorization of the vehicle configuration by the authorizing party to the authorized party when the authorized party uses the vehicle comprises:

when the authorized party uses the vehicle, an authorizing party performs authorization confirmation of vehicle configuration on the authorized party according to a request instruction sent by the authorized party, wherein the request instruction comprises the vehicle configuration file; and/or

When the authorized party uses the vehicle, the authorizing party performs authorization confirmation of vehicle configuration on the authorized party according to the vehicle configuration file corresponding to the authorized party in the server.

3. The control method according to claim 1 or 2, characterized in that the control method of the vehicle further includes:

creating the vehicle configuration file according to the input of the authorized party, and sending the vehicle configuration file to the server; and/or

And creating a vehicle configuration file to be checked according to the input of the authorized party, checking the vehicle configuration file to be checked by the authorized party, taking the vehicle configuration file to be checked as the vehicle configuration file when the vehicle configuration file to be checked passes the checking, and sending the vehicle configuration file to the server.

4. The control method of claim 1, wherein each vehicle has unique identification information, the vehicle profile includes identification information of the vehicle, and issuing, by the server, the vehicle profile to the vehicle currently used by the authorized party when the authorization confirmation passes includes:

and when the authorization confirmation passes, issuing the vehicle configuration file corresponding to the mark information of the vehicle currently used by the authorized party to the vehicle currently used by the authorized party through a server.

5. The control method of claim 1, wherein the vehicle profile includes configuration information corresponding to a plurality of vehicle function modules, the vehicle function modules including at least one of seat, audio, air conditioning, lighting, window and lantern modules,

the completing vehicle configuration for the vehicle currently in use according to the vehicle configuration file comprises:

and under the network-free environment, configuring the corresponding vehicle function module according to the plurality of configuration information in the vehicle configuration file so as to complete vehicle configuration of the vehicle.

6. The control method according to claim 5, wherein each of the configuration information includes at least one set of configuration parameters and execution conditions corresponding to the configuration parameters; the control method further comprises the following steps:

and controlling the vehicle function module to execute the vehicle function according to the configuration parameters corresponding to the execution conditions under different execution conditions.

7. The control method of claim 5, wherein the configuration information comprises a first set of configuration parameters and a second set of configuration parameters that are different, wherein the first set of configuration parameters corresponds to a first execution condition, and the second set of configuration parameters corresponds to a second execution condition, the control method further comprising:

controlling the vehicle function module to execute a vehicle function according to the first set of configuration parameters under the first execution condition; and/or

And controlling the vehicle function module to execute the vehicle function according to the second set of configuration parameters under the second execution condition.

8. The control method according to claim 7, wherein the first execution condition includes: the current date is a preset date, the vehicle is not entered by a user, and the vehicle is located at a preset position, and the controlling the vehicle function module executes the vehicle function according to the first configuration parameter under the first execution condition, including:

if the current date is a preset date, the vehicle is located at a preset position, and a user does not enter the vehicle, the plurality of vehicle function modules execute vehicle functions according to the first set of configuration parameters; and/or

The second execution condition includes: the current date is a preset date, the user enters the vehicle and only authorized users exist in the vehicle, and the vehicle function module is controlled to execute vehicle functions according to the second set of configuration parameters under the second execution condition, including:

and if the current date is a preset date, the user enters the vehicle and only the authorized user exists in the vehicle, the plurality of vehicle function modules execute the vehicle function according to the second set of configuration parameters.

9. A vehicle system, comprising:

a confirmation module for an authorized party to make an authorization confirmation of a vehicle configuration for an authorized party when the authorized party uses a vehicle;

the issuing module is used for issuing a vehicle configuration file to the vehicle currently used by the authorized party through a server when the authorization confirmation passes; and

a configuration module for completing vehicle configuration for the vehicle currently in use according to the vehicle configuration file; wherein the vehicle profile may be used for functional configuration of the vehicle.

10. A vehicle system, comprising:

a vehicle;

a mobile terminal in communication connection with the vehicle; and

one or more processors provided in the vehicle and/or mobile terminal, the one or more processors being configured to implement the control method of any one of claims 1-8.

11. A non-transitory computer-readable storage medium on which a computer program is stored, the computer program, when being executed by a processor, implementing the control method according to any one of claims 1 to 8.

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